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W2080668503 abstract "The effect of anomalous magnetic moment of quarks on thermodynamic properties of the chiral condensate is studied, using of a two-flavor Nambu--Jona-Lasinio model at finite temperature $T$, chemical potential $mu$, and in the presence of a uniform magnetic field $eB$. To this purpose, the Schwinger linear-in-$B$ ansatz for the quark anomalous magnetic moment in term of the nonperturbative Bohr magneton is considered. In a two-dimensional flavor space, it leads to the correction $hat{T}_{Sch}=hat{kappa}hat{Q} eB$ in the energy dispersion relation of quarks. Here, $hat{Q}$ is the quark charge matrix. We consider three different sets for $hat{kappa}$, and numerically determine the dependence of the constituent quark mass on $T,mu$ and $eB$ for fixed $hat{kappa}$. By exploring the complete phase portrait of this model in $T$-$mu$, $mu$-$eB$, and $T$-$eB$ phase spaces for various fixed $eB$, $T$, $mu$ and $hat{kappa}$, we observe that inverse magnetic catalysis occurs for large enough $hat{kappa}$. Moreover, in the regime of weak magnetic fields, the phenomenon of reentrance of chiral symmetry broken and restored phases occurs for $T, mu$ and $eB$ dependent $hat{kappa}$." @default.
W2080668503 created "2016-06-24" @default.
W2080668503 creator A5024700737 @default.
W2080668503 creator A5042998637 @default.
W2080668503 date "2014-11-25" @default.
W2080668503 modified "2023-10-18" @default.
W2080668503 title "Anomalous magnetic moment of hot quarks, inverse magnetic catalysis, and reentrance of the chiral symmetry broken phase" @default.
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W2080668503 doi "https://doi.org/10.1103/physrevd.90.105030" @default.
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